Interfacial Engineering for Efficient Low-Temperature Flexible Perovskite Solar Cells,Angewandte Chemie International Edition

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Interfacial Engineering for Efficient Low-Temperature Flexible Perovskite Solar Cells
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2023-08-25 , DOI: 10.1002/anie.202309398
Weilun Cai ₁ , Tinghuan Yang ₁ , Chou Liu ₁ , Yajie Wang ₁ , Shiqiang Wang ₁ , Yachao Du ₁ , Nan Wu ₁ , Wenliang Huang ₁ , Shumei Wang ₁ , Zhichao Wang ₁ , Xin Chen ₁ , Jiangshan Feng ₁ , Guangtao Zhao ₁ , Zicheng Ding ₁ , Xu Pan ₂ , Pengchen Zou ₃ , Jianxi Yao ₃ , Shengzhong Frank Liu _{1,

4} , Kui Zhao ₁

Affiliation

In this study, a high-quality SnO₂ layer with decreased adsorbed oxygen (O^chem) active sites and oxygen vacancies (O^vac) was fabricated on a flexible substrate by introducing TiCl₄ into the SnO₂ bulk layer. The first evidence of flexible perovskite cells working at low temperature was demonstrated, with efficiency as high as 23.7 % based on an improved SnO₂ layer.

中文翻译：

高效低温柔性钙钛矿太阳能电池的界面工程

_{在这项研究中，通过将TiCl 4}引入到SnO ₂体层中，在柔性基板上制备了具有减少的吸附氧(O ^chem )活性位点和氧空位(O ^vac )的高质量SnO ₂层。_{柔性钙钛矿电池在低温下工作的第一个证据得到了证明，基于改进的 SnO 2}层，效率高达 23.7% 。

更新日期：2023-08-25

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